By: Reza Tikani Mechanical Engineering Department Isfahan University of Technology
By: Reza Tikani Mechanical Engineering Department Isfahan University of Technology
:شمارٌ اتاق داوشکدٌ مکاويک 51
رضا تيکىي، استاديار داوشکدٌ مُىدسي مکاويک
:ارائٍ دَىدٌ
11-12:30شىبٍ ي ديشىبٍ ساعت :محل کالس 8داوشکدٌ کشايرزی کالس ساعت : کالس
10-11ديشىبٍ : ساعات رفع اشکال داوشجًيان :تلفه 5215 391
[email protected] ٍراياوام: Tikani.iut.ac.ir يبسايت:
ivut.iut.ac.ir: ساماوٍ الکتريويکي دريس
:منابع و مراجع درس
• S.S. Rao, Mechanical Vibrations, 5th edition, 2010. • D. J. Inman, Engineering Vibration, 3rd edition, 2007. • W. Thomson, Theory of Vibration with Applications, 2004. • L. Meirovitch, Elements of vibration analysis, 1986.
Frequency fHz
Period
Amplitude
Phase
Frequency
Period
Amplitude
Free Vibration
Forced Vibration
Undamped Vibration
Damped Vibration
Deterministic Vibration
Random Vibration
Higher Speeds Greater Flexibility
Lighter Weight Larger Excitation Forces
Good Vibrations (Serve a Useful Purpose):
• Shakers in parts sorters, aligners, feeders, etc. • Vibration therapy • Jackhammer vibration necessary for the task • Musical instrument vibration • Polishers, finishers, and mixers
Bad Vibrations (Unpleasant or Harmful):
• Seismic destruction • Wind induced vibration • Vibration in machine tools • Vehicle vibrations (due to road disturbances, engine, etc.) • Noise-generating vibrations • Vibration in electrical components (e.g., relays)
Bam, 2003
Bad Vibrations (Unpleasant or Harmful):
Bad Vibrations (Unpleasant or Harmful):
Aeronautical and Aerospace Engineering:
Design and development of aircraft and space craft (analyze and avoid excitation of resonances by engine, atmospheric, control surface excitations, etc.). Proper vibration isolation and control (active and passive methods)
Civil Engineering: Design of bridges and buildings (modal analysis); Dynamic stability
(avoid catastrophic self-excited vibration)
Electrical Engineering: Hardware degrade/malfunction faster (e.g., components in PCs and
control devices) ,Analysis and testing during design and development stages, for proper vibration performance , Vibration testing during production (for quality control), Qualification testing for specialized applications (e.g., nuclear power plants)
Manufacturing Engineering: Machine tool vibration, Degrades product quality; increases rate of
wear and tear, frequency of malfunction, tool breakage and repair (increased frequency/cost of maintenance); creates noise and operator discomfort
Proper design of machine tools and components Incorporation of vibration control, isolation, and proper mounting
practices
Mechanical Engineering: Reduced vehicle vibration, Improved performance, ride quality and
comfort; reduced maintenance and repair Suspension design, engine balancing, active and passive control, body design